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package encoding
import (
"fmt"
"math/bits"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/logger"
)
// marshalInt64NearestDelta encodes src using `nearest delta` encoding
// with the given precisionBits and appends the encoded value to dst.
//
// precisionBits must be in the range [1...64], where 1 means 50% precision,
// while 64 means 100% precision, i.e. lossless encoding.
func marshalInt64NearestDelta ( dst [ ] byte , src [ ] int64 , precisionBits uint8 ) ( result [ ] byte , firstValue int64 ) {
if len ( src ) < 1 {
logger . Panicf ( "BUG: src must contain at least 1 item; got %d items" , len ( src ) )
}
if err := CheckPrecisionBits ( precisionBits ) ; err != nil {
logger . Panicf ( "BUG: %s" , err )
}
firstValue = src [ 0 ]
v := src [ 0 ]
src = src [ 1 : ]
is := GetInt64s ( len ( src ) )
if precisionBits == 64 {
// Fast path.
for i , next := range src {
d := next - v
v += d
is . A [ i ] = d
}
} else {
// Slower path.
trailingZeros := getTrailingZeros ( v , precisionBits )
for i , next := range src {
d , tzs := nearestDelta ( next , v , precisionBits , trailingZeros )
trailingZeros = tzs
v += d
is . A [ i ] = d
}
}
dst = MarshalVarInt64s ( dst , is . A )
PutInt64s ( is )
return dst , firstValue
}
// unmarshalInt64NearestDelta decodes src using `nearest delta` encoding,
// appends the result to dst and returns the appended result.
//
// The firstValue must be the value returned from marshalInt64NearestDelta.
func unmarshalInt64NearestDelta ( dst [ ] int64 , src [ ] byte , firstValue int64 , itemsCount int ) ( [ ] int64 , error ) {
if itemsCount < 1 {
logger . Panicf ( "BUG: itemsCount must be greater than 0; got %d" , itemsCount )
}
is := GetInt64s ( itemsCount - 1 )
defer PutInt64s ( is )
tail , err := UnmarshalVarInt64s ( is . A , src )
if err != nil {
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return nil , fmt . Errorf ( "cannot unmarshal nearest delta from %d bytes; src=%X: %w" , len ( src ) , src , err )
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}
if len ( tail ) > 0 {
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return nil , fmt . Errorf ( "unexpected tail left after unmarshaling %d items from %d bytes; tail size=%d; src=%X; tail=%X" , itemsCount , len ( src ) , len ( tail ) , src , tail )
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}
v := firstValue
dst = append ( dst , v )
for _ , d := range is . A {
v += d
dst = append ( dst , v )
}
return dst , nil
}
// nearestDelta returns the nearest value for (next-prev) with the given
// precisionBits.
//
// The second returned value is the number of zeroed trailing bits
// in the returned delta.
func nearestDelta ( next , prev int64 , precisionBits , prevTrailingZeros uint8 ) ( int64 , uint8 ) {
d := next - prev
if d == 0 {
// Fast path.
return 0 , decIfNonZero ( prevTrailingZeros )
}
origin := next
if origin < 0 {
origin = - origin
// There is no need in handling special case origin = -1<<63.
}
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originBits := uint8 ( bits . Len64 ( uint64 ( origin ) ) )
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if originBits <= precisionBits {
// Cannot zero trailing bits for the given precisionBits.
return d , decIfNonZero ( prevTrailingZeros )
}
// originBits > precisionBits. May zero trailing bits in d.
trailingZeros := originBits - precisionBits
if trailingZeros > prevTrailingZeros + 4 {
// Probably counter reset. Return d with full precision.
return d , prevTrailingZeros + 2
}
if trailingZeros + 4 < prevTrailingZeros {
// Probably counter reset. Return d with full precision.
return d , prevTrailingZeros - 2
}
// zero trailing bits in d.
minus := false
if d < 0 {
minus = true
d = - d
// There is no need in handling special case d = -1<<63.
}
nd := int64 ( uint64 ( d ) & ( uint64 ( 1 << 64 - 1 ) << trailingZeros ) )
if minus {
nd = - nd
}
return nd , trailingZeros
}
func decIfNonZero ( n uint8 ) uint8 {
if n == 0 {
return 0
}
return n - 1
}
func getTrailingZeros ( v int64 , precisionBits uint8 ) uint8 {
if v < 0 {
v = - v
// There is no need in special case handling for v = -1<<63
}
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vBits := uint8 ( bits . Len64 ( uint64 ( v ) ) )
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if vBits <= precisionBits {
return 0
}
return vBits - precisionBits
}